Gastric restriction devices for treating obesity

ABSTRACT

A gastric restriction device for treating excessive weight or obesity in mammals. The gastric restriction devices includes a skirt having a left portion, a right portion, a top edge with a first indentation located at a center of the top edge, and a bottom edge with a second indentation located at a center of the bottom edge. The skirt has a narrow surface located between the first indentation and the second indentation and a broad surface formed from the left portion connecting to the right portion. The skirt is configured to envelop and fit a stomach of a mammal. The gastric restriction devices includes a first attachment device and a second attachment device. The second attachment device is adapted to engage the first attachment device so that the skirt envelops and fits the stomach of the mammal.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.14/571,144, entitled “Gastric Restriction Devices for Treating Obesity,”filed Dec. 15, 2014 and now U.S. patent Ser. No. 10/010,441, which is acontinuation of U.S. patent application Ser. No. 12/474,254, entitled“Gastric Restriction Devices with Fillable Chambers and Ablation Meansfor Treating Obesity,” filed May 28, 2009 and now U.S. Pat. No.8,911,346, which is a continuation-in-part of U.S. patent applicationSer. No. 12/328,979, entitled “Method and Apparatus for GastricRestriction of the Stomach to Treat Obesity,” filed Dec. 5, 2008, nowU.S. Pat. No. 8,357,081, the entire contents of the applications arehereby incorporated by reference herein for all purposes.

BACKGROUND Field

The invention relates to a method and apparatus for treating obesity andcontrolling weight gain in mammals, and more specifically, to aninflatable gastric skirt placed around the stomach to cause a reduceddesire for eating for treating obesity and controlling weight gain inmammals.

Description of the Related Art

Extreme obesity is a major illness in the United States and otherdeveloped countries. More than half of Americans are overweight, whilenearly one-third are categorized as obese. Obesity is the accumulationof excess fat on the body, and is defined as having a body mass index(BMI) of greater than 30. Many serious long-term health consequences areassociated with obesity, such as, hypertension, diabetes, coronaryartery disease, stroke, congestive heart failure, venous disease,multiple orthopedic problems and pulmonary insufficiency with markedlydecreased life expectancy.

Medical management of obesity including dietary, psychotherapy,medications and behavioral modification techniques have yieldedextremely poor results in terms of treating obesity. Several surgicalprocedures have been tried which have bypassed the absorptive surface ofthe small intestine or have been aimed at reducing the stomach size byeither partition or bypass. These procedures have been proven bothhazardous to perform in morbidly obese patients and have been fraughtwith numerous life-threatening postoperative complications. Moreover,such operative procedures are often difficult to reverse.

One procedure for treating morbid obesity is referred to as a“biliopancreatic diversion.” Biliopancreatic diversion surgery is areduction of the stomach volume and a diversion of food from the stomachto the final segment of the small intestine, bypassing the beginning andmiddle portions of the small intestine to limit the amount of nutrientsand calories absorbed by the body. This procedure removes about one halfof the stomach, and then connects the stomach to the last 250 cm of thesmall intestine. Some disadvantages of this surgery include patientssuffering from protein malnutrition, anemia, gastric retention,diarrhea, abdominal bloating, and intestinal obstruction.

Another bariatric surgery, “gastric bypass,” is a bypass connecting thelower compartment of the stomach to the initial portion of the smallintestine. This procedure limits the amount of food that can be ingestedat one sitting and reduces absorption of food across the smallintestine. In addition to surgical complications, patients may alsosuffer from acute gastric dilation, anastomotic leak, anemia, anddumping syndrome.

Yet another bariatric surgical procedure is “vertical-bandedgastroplasty,” which restricts the volume of the stomach by usingstaples. In this procedure, staples are placed in the upper stomachregion to create a small pouch with a narrow outlet to the remainingportion of the stomach. A band is placed around the narrow outlet toprovide support and inhibit stretching of the stomach. In addition tosurgical complications, patients undergoing this procedure may sufferfrom vomiting, ulcers, band erosion, and leaks.

Recently, minimally invasive procedures and devices which create afeeling of early satiety have been introduced into the marketplace in anattempt to address some of the issues above. The LAP-BAND® is a bandwhich encircles the stomach at the region of the fundus-cardia junction;it is a restrictive procedure similar to stomach stapling. The procedurerequires general anesthesia, a pneumoperitoneum, muscle paralysis, andextensive dissection of the stomach at the region of the gastroesophageal junction. The procedure also requires continual adjustment ofthe band, or restriction of a portion of the device. Although lessinvasive than other bariatric surgical procedures and potentiallyreversible, the LAP-BAND® does not reduce the volume of the stomach byany great extent and some patients report a feeling of hunger most ofthe time. Furthermore, once implanted, the LAP-BAND®, although it isadjustable by percutaneous means, may require many iterative adjustmentsbefore it is optimally positioned. In addition, the port used to adjustthe LAP-BAND® is left inside the patient's body.

Therefore, there is a need for minimally-invasive procedures and devicesthat eliminate the above-mentioned drawbacks of conventional methods anddevices that are currently being used to treat obesity.

SUMMARY

In one embodiment, the invention includes a gastric restriction devicefor treating excessive weight or obesity in mammals. The gastricrestriction device has a skirt. The skirt has a left portion, a rightportion, a top edge with a first indentation located at a center of thetop edge, and a bottom edge with a second indentation located at acenter of the bottom edge. The skirt has a narrow surface locatedbetween the first indentation and the second indentation and a broadsurface formed from the left portion connecting to the right portion.The skirt is configured to envelop and fit an internal stomach organ ofa mammal. The gastric restriction device has a first attachment devicethat is attached to or part of the right portion of the skirt. Thegastric restriction devices has a second attachment device that isattached to or part of the left portion of the skirt and adapted toengage the first attachment device so that the skirt envelops and fitsthe internal stomach organ of the mammal.

In one embodiment, the invention includes a gastric constriction devicefor treating excessive weight or obesity in mammals. The gastricconstriction device has a skirt. The skirt has a left portion, a rightportion, a top portion, and a bottom portion. The top portion has a topedge with a first indentation and the bottom portion has a bottom edgewith a second indentation. The skirt has a narrow surface locatedbetween the first indentation and the second indentation and a broadsurface formed from the left portion connecting to the right portion.The narrow surface and the broad surface are operable to cover differentportions of a stomach. The gastric constriction device has a firstattachment device that is attached to or part of the right portion ofthe skirt. The gastric constriction device has a second attachmentdevice that is attached to or part of the left portion of the skirt andadapted to engage the first attachment device and maintain a left edgeof the left portion in proximity to a right edge of the right portion.

In one embodiment, the invention includes a gastric restriction devicefor treating excessive weight or obesity in mammals. The gastricrestriction device has a skirt. The skirt has a left portion, a rightportion, a top portion having a top edge with a first indentationlocated at the top edge, and a bottom portion having a bottom edge witha second indentation located at the bottom edge. The skirt has a narrowsurface located between the first indentation and the second indentationand a broad surface formed from the left portion connecting to the rightportion. The narrow surface is operable to envelop a lesser curvature ofan internal stomach organ of a mammal and the broad surface is operableto envelop a greater curvature of the internal stomach organ. Thegastric restriction device has a first attachment device that isattached to or part of the right portion of the skirt and a secondattachment device that is attached to or part of the left portion of theskirt and adapted to engage the first attachment device and maintain theleft portion in proximity to the right portion.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other embodiments of the invention will be discussed withreference to the following exemplary and non-limiting illustrations, inwhich like elements are numbered similarly, and where:

FIG. 1A is a view of a stomach of a mammal;

FIG. 1B is a view of a partially tucked-in stomach of a mammal;

FIG. 2A is a view of a laid-open gastric skirt;

FIG. 2B is a view of a modular laid-open gastric skirt;

FIG. 3 is a view of a rolled gastric skirt;

FIG. 4 is a view of a folded conical cylinder-shaped gastric skirt;

FIG. 5A is a view of a gastric skirt placed in position around astomach;

FIG. 5B is a view of a modular gastric skirt placed in position around astomach;

FIG. 5C is a view of a gastric skirt placed in position around a stomachthat shows a tucked-in portion of the stomach;

FIG. 6 is a view of a laid-open butterfly-shaped gastric skirt;

FIG. 7 is a view of a folded butterfly-shaped gastric skirt;

FIG. 8A is a view of a laid-open oval or pear-shaped skirt;

FIG. 8B is a view of a laid-open oval or pear-shaped skirt having apouch that holds a balloon;

FIG. 8C is a view of a modular laid-open oval or pear-shaped skirthaving a pouch that holds a balloon;

FIG. 9A is a view of a folded gastric skirt with locking clips;

FIG. 9B is a view of a locking clip for a gastric skirt;

FIG. 10A is a view of a gastric skirt with a harness system;

FIG. 10B is a side-view of a gastric skirt with a harness system;

FIG. 11 is a view of a gastric wrap with a harness system in positionaround a stomach;

FIG. 12 is a view of an exemplary connector;

FIG. 13A is a view of a collar with wings;

FIG. 13B is a view of a locking clip for a collar;

FIG. 13C is a view of a collar without wings;

FIG. 13D is a view of a laid-open collar;

FIG. 14 is a cross-sectional view of a stomach and a balloon positionedwithin a greater curvature of the stomach when the greater curvature istucked into the stomach;

FIG. 15A is a view of the balloon of FIG. 14;

FIG. 15B is a view of a sealed balloon with a port;

FIG. 16 is a view of the gastric wrap of FIG. 6 and the balloon inposition around a stomach;

FIG. 17 is a view of one or more ropes wrapped around a tucked-instomach;

FIG. 18 is a view of one or more tentacles wrapped around a tucked-instomach where the tentacles can be independently pulled and locked inplace using a ring and clip system or a tie lock;

FIG. 19 is a view of an inflatable gastric skirt positioned around astomach;

FIG. 20 is a view of an inflatable gastric skirt and a triple-lumentube;

FIG. 21 is a view of an inflatable gastric skirt without a harnesssystem;

FIG. 22A is a view of a gastric skirt having one or more inflatablechambers;

FIG. 22B is a view of a cavity of a triple-lumen tube;

FIG. 23 is a view of the interior of a triple-lumen tube;

FIG. 24 is an interior view of an inflatable gastric skirt;

FIG. 25 is a view of a triple-lumen port inlet;

FIG. 26 is view of an inflatable gastric skirt and an inflation device;

FIG. 27 is a view of a laid-open inflatable gastric skirt;

FIG. 28 is a view of a connector strap;

FIG. 29 is a lateral view of an inflatable gastric skirt;

FIG. 30 is a view of an inflatable collar;

FIG. 31 is a view of an inflatable gastric skirt with dual inflatablecollars;

FIG. 32 is a view of the internal surface of an inflatable gastricskirt;

FIG. 33 is a view of a valve and the steps of inflation and deflation;

FIG. 34 is a view of an inflatable antral skirt;

FIG. 35 is a laid-open view of an inflatable antral skirt;

FIG. 36 is a view of a double-side inflatable gastric skirt;

FIG. 37 is a view of an inflatable gastric skirt with radio frequencycoils;

FIG. 38 is a view of an inflatable gastric skirt with steam ablationholes;

FIG. 39 is a lateral view of an inflatable gastric skirt with steamablation holes;

FIG. 40 is a view of an inflatable gastric skirt with an ultrasoundprobe;

FIG. 41 is a view of an inflatable gastric skirt with alternatingablation and inflation chambers;

FIG. 42 is a view of a physiological connection between stomachreceptors and a brain;

FIG. 43 is a view of a stomach prior to ligation;

FIG. 44 is a lateral view of a tucked-in stomach prior to ligation;

FIG. 45 is a view of a ligated stomach;

FIG. 46 is a lateral view of a gastric skirt positioned around a ligatedstomach;

FIG. 47 is a flowchart illustrating a process of positioning a gastricskirt around a ligated stomach;

FIG. 48A is a view of unconnected clip members; and

FIG. 48B is a view of connected clip members.

DETAILED DESCRIPTION

Throughout this description, the term gastric “skirt” is used to referto a device made of a flexible, semi-flexible, or minimally stretchablematerial that can be tightly wrapped around portions of a stomach toprovide constriction to the stomach. The term “skirt” can be usedinterchangeably with “vest”, “wrap”, “wrapping”, “wrapper”, “bandage”,“blanket”, “cape”, “cloak”, “cover”, “jacket”, “envelope”, andequivalents thereof.

FIG. 1A is a view of a stomach 100 of a mammal (e.g., human). As shownin FIG. 1A, the stomach 100 has at least two curvatures, a lessercurvature 110 and a greater curvature 112. The cardia or proximalstomach 108 is located in the upper left portion of the stomach 100 andserves as the junction between the esophagus 102 and the body of thestomach 106. The fundus 104 is located in the upper right portion of thestomach 100. The lower portion of the stomach 100 is known as the distalstomach and includes the antrum 114 and the pylorus 116. The antrum 114is where food is mixed with gastric juices. The pylorus 116 has amuscular pyloric sphincter that acts as a valve to control emptying ofthe stomach contents into the proximal segment of the small intestine118 (partially shown). The inner lining 120 of the stomach 100 separatesthe body 106 from the outer wall 122.

The invention is directed to a gastric skirt that is placed around thestomach 100 by a healthcare professional, such as a surgeon, a bariatricsurgeon or a gastrointestinal specialist trained in laparoscopic and/orgeneral surgery procedures. The gastric skirt can be positioned using aroutine laparoscopic procedure or a conventional open-surgicalprocedure. Furthermore, the gastric skirt can be placed around thestomach 100 using newer techniques, methods and procedures forlaparoscopic surgery.

The invention can be utilized in conjunction with the LAP-BAND®procedure and/or other post-gastric bypass procedures such as verticalgastric sleeve procedure treatments that provide reinforcement andrestraining devices to prevent further expansion or re-expansion of thestomach 100.

FIG. 1B is a view of a partially tucked-in stomach 100 of a human. Priorto placing the gastric skirt around the stomach 100, a linear portion ofthe greater curvature 112 is tucked inwards into the stomach 100. Asshown in FIG. 1B, the inner lining 120 is depressed within the stomach100 as a result of the tucking procedure, and the tucked-in portionoccupies space within the stomach 100. Thus, the internal volume of thestomach 100 is substantially decreased, creating a ridge like effect,leading to the slowing of the passage of food, and thus less foodconsumption, while still enabling absorption of vital fluids andnutrients (unlike a gastric bypass procedure). In addition, the internalvolume of the fundus 104 is reduced.

In another embodiment, the tucked-in portion of the stomach 100 may be alinear portion of the lesser curvature 110, a portion of the body 106,or a portion of the fundus 104, not along either the greater curvature112 or the lesser curvature 110. Therefore, any portion of the stomach100 may be tucked-in and wrapped using the gastric skirts disclosedherein.

FIG. 2A is a view of a laid-open gastric skirt 200. The gastric skirt200 may be formed as a sheet 224 prior to being wrapped around apatient's stomach. For illustrative purposes, the gastric skirt 200 hasa left side 232, a right side 230, a bottom portion 220, and a topportion 222. Each connector 208, 210, and 212 may be offset or staggeredrelative to its adjacent connector. Similarly, each receiver 214, 216,and 218 may be offset or staggered relative to its adjacent receiver. Inone embodiment, each offset may be approximately 1-3 centimeters. Thebottom portion 220 and the top portion 222 may have an inward curved orconcave edge. The gastric skirt 200 may have a length L of approximately6-16 centimeters, a central width W1 of approximately 3-7 centimeters,and an outer width W2 of approximately 6-10 centimeters.

In a preferred embodiment, the length L is at least 8 centimeters, thecentral width W1 is at least 4 centimeters, and the outer width W2 is atleast 7 centimeters.

The gastric skirt 200 may have a staggered step design and may be formedin the shape of a parallelogram when laid-open, where the opposing endsof the gastric skirt 200 interconnect in a stepped fashion when thegastric skirt 200 is folded. For example, step element 201 is staggeredrelative to immediately opposing step element 202. Likewise, stepelement 203 and step element 205 are staggered relative to theirimmediately opposing step elements 204 and 206, respectively. When thegastric skirt 200 is wrapped or folded into position around a patient'sstomach 100, the opposing step elements interconnect with each other,forming the end at the greater curvature 112 and the gastric skirt 200is formed into a conical cylindrical shape, which is described in moredetail below.

Attached to each step element is a male connector or a female receiveror vice versa. In the exemplary embodiment, a male connector 208 isattached to a female receiver 214. When the gastric skirt 200 is foldedinto position, the male connector 208 couples with the female receiver214. The male connectors 210 and 212 couple with the female receivers216 and 218, respectively, when the gastric skirt 200 is wrapped orfolded into position around the stomach. In other embodiments, thegastric skirt 200 may have one set of connectors (e.g., a single maleconnector 208 and a single female receiver 214) or two sets ofconnectors (e.g., 2 male connectors 208 and 210 and 2 female receivers214 and 216). The connectors can be of various shapes and sizes, and arenot limited to the connector design shown in FIG. 2A. Furthermore, theconnectors can be positioned at various locations on the gastric skirt200, and are not limited to being positioned at the left side 232 andthe right side 230 of the gastric skirt 200.

The gastric skirt 200 has a bottom portion 220 that is inward curving.Opposite the bottom portion 220, the gastric skirt 200 has a top portion222 that is inward curving. When the gastric skirt 200 is folded intoposition, the bottom and top portions 220 and 222 come into contact withthe lesser curvature 110 and provide the gastric skirt 200 with acontoured, conical shape. The conical shape allows the gastric skirt 200to properly fit around the stomach 100.

Furthermore, one or more optional connectors or wings 226 and 228 areattached to the top portion 222 of the gastric skirt 200 and one or moreoptional connectors or wings 248 and 250 are attached to the bottomportion 220 of the gastric skirt 200. The connectors or wings 226 and228 may be used to attach the gastric skirt 200 to collar connectorstraps (shown in FIGS. 10A, 10B, and 11). The connectors or wings 248and 250 may be used to attach the gastric skirt 200 to connector straps(shown in FIG. 11).

The body or sheet 224 of the gastric skirt 200 is relatively flexible,or semi-flexible, and may be made of an elastic polymer (“elastomer”),such as, but not limited to, silicone, polypropylene, polyethyleneterephthalate, polytetrafluoroethylene, polyaryletherketone, nylon,fluorinated ethylene propylene, polybutester, or any combinationthereof. Furthermore, the elastomer may be non-porous. Alternatively,the elastomer may be microporous or porous to allow for betterexpansibility and oxygenation and for tissue in-growth to better holdthe gastric skirt 200 in place.

In a preferred embodiment, the elastomer is silicone. Silicone providesan ample amount of rigidity, while still providing flexibility toaccommodate changes in stomach shape and size during peristalsis. Asilicone body may be preferred over a porous body, as larger pores mayallow the stomach muscles or tissue to seep through and grow onto theoutside of the body 224. This overgrowth of the stomach through the body224 may make it difficult to remove the gastric skirt 200 from thepatient if needed. Furthermore, the silicone allows some expandabilityof the stomach 100, which is the stomach's natural function. Thus, thegastric skirt 200 allows the stomach to accommodate some gases andlarger pieces of food or meat.

Alternatively, more rigid materials, such as Teflon®, Dacron®, ePTFE orwire mesh may be used if they provide an adequate level of flexibility,and do not significantly irritate or erode the stomach surface. That is,the gastric skirt 200 should be relatively flexible, as a very rigidstomach wrap may cause discomfort to the patient, as well as injury tothe stomach and other gastric organs. The gastric skirt 200 is tightlypositioned around the tucked-in stomach so little to no open space isprovided between the gastric skirt 200 and the outer surface of thestomach.

In another embodiment, the body 224 of the gastric skirt 200 may be madeof a biodegradable and absorbable polymer or copolymer, such as, but notlimited to, polyglycolic acid (PGA), polylactic acid (PLA),polycaprolactone, polyhydroxyalkanoate, various thermoplastic materials,or any combination thereof. Once placed around the stomach 100, thegastric skirt 200 stays in position for a predetermined amount of time.After the predetermined amount of time has elapsed, the gastric skirt200 may be absorbed by the patient's bodily fluids, eliminating the needfor a second procedure to remove the gastric skirt 100. In thisparticular embodiment, the entire gastric skirt 200, including the maleconnectors and the female receivers, are made of a biodegradablematerial.

The staggered step design allows the gastric skirt 200, including all ofthe connectors and receivers, to be rolled into a highly compactfashion. In one embodiment, the gastric skirt 200 can be placed around apatient's stomach using a routine laparoscopic procedure, referred to asa laparoscopy. During a laparoscopy, the gastric skirt 200 is insertedinto the patient via a trocar through a hole made in the patient'sabdomen. The staggered step design minimizes the diameter of the gastricskirt 200 when it is rolled for insertion through the trocar. That is,the connectors and receivers are not positioned on top of each other inthe rolled position to minimize the thickness for insertion.

In another embodiment, male connectors are connected to their respectivefemale receivers with an elastic material. For example, male connector208 is connected to female receiver 214 with a strap made from anelastic material. The strap is positioned within an internal channelthat runs lengthwise from the left side 232 to the right side 230 withinthe gastric skirt 200. The strap is preferably made of a more elasticmaterial than the gastric skirt 200 so that the connectors canaccommodate peristalsis and movement of the stomach. This embodimentallows stress to be placed on the strap rather than the gastric skirt200, thereby preventing the gastric skirt 200 from being overstretcheddue to peristalsis.

FIG. 2B is a view of a modular laid-open gastric skirt 200. The modulargastric skirt 200 may have two or more rectangular strips or modules234, 236, and 238. Each strip may have a ridge 240 (and 244) and/or agroove 242 (and 246) for attachment to adjacent strips. The ridge 240securely fits into the groove 242 along the length of each strip toprevent unwanted detachment of adjacent strips and any in-growth oftissue between adjacent strips. Some advantages of the strips includeeach strip can be inserted separately and the size of the gastric skirt200 can be adjusted at the time of surgery to account for the amount oftucking, size and orientation of the stomach 100. The modular gastricskirt 200 may have a width W3 of approximately 1-3 centimeters, a widthW4 of approximately 1-4 centimeters, and a width W5 of approximately 1-3centimeters. The widths may vary depending on the size and amount oftucking needed. The modular gastric skirt 200 may have a length L ofapproximately 6-16 centimeters.

In an embodiment, the modular gastric skirt 200 may utilize only two ofthe rectangular strips or modules 234, 236, and 238. For example, module234 can be connected to module 236 to form the modular gastric skirt200. Alternatively, module 234 can be connected to module 238 to formthe modular gastric skirt 200.

FIG. 3 is a view of a rolled gastric skirt 300. The gastric skirt 300 istightly rolled so that it can be inserted through a trocar as describedabove or other means. The staggered step design allows the maleconnectors 208, 210, and 212, and the female connectors 214, 216, and218 to not overlap with each other when the gastric skirt 300 is rolled.By not overlapping, the male connectors 208, 210, and 212 and the femalereceivers 214, 216, and 218 are evenly flush with each other, so thediameter of the rolled gastric skirt 300 is minimized. Similarly, theconnectors, the cardia collar and the antral collar may be passedthrough the trocar into the stomach for connection to the gastric skirt200.

FIG. 4 is a view of a folded conical cylinder-shaped gastric skirt 400.As shown, step elements 412, 410, and 408 are each connected to theirimmediately opposing step elements 418, 416, and 414, respectively, toform a conical cylinder-shaped gastric skirt 400. In an embodiment, theouter or upper curvature 403 has a convex shape and is outwardlycurving. The inner or lower curvature 404 has a concave shape and isinwardly curving. The conical cylinder shape allows the gastric skirt400 to properly fit around and contact the stomach. The upper portion ofthe stomach 100 is covered by the gastric skirt 400 near the uppercurvature 403, as the upper portion of the stomach has a larger diameterthan the lower portion of the stomach. The lower portion of the stomachis covered by the gastric skirt 400 near the lower curvature 404.

The diameter of the upper curvature opening 420 (i.e., cardia end) andthe lower curvature opening 406 (i.e., antral end) are similar. Thegastric skirt 400 can be a “one-size fits all” design, where asingle-sized gastric skirt 400 is used for all or most stomach sizes. Toadjust to a “one-size fits all” gastric skirt 400, the stomach is tuckedin per physician's preference and the gastric skirt 400 is simplytightened accordingly when it is being positioned around the stomach.

Furthermore, the one or more optional wings 422 and 424 are attached onthe circumference of the upper curvature 403. The wings 422 and 424 areused to attach the gastric skirt 400 to collar connector straps (seealso FIGS. 10A and 10B). Similarly, the circumference of the lowercurvature 404 can also have one or more wings 426 and 428 attached. Inanother embodiment, the gastric skirt 400 can have no wings attached, orwings only on one side, either on the upper curvature 403 or the lowercurvature 404.

In another embodiment, a healthcare professional can estimate or measurethe size of the patient's stomach beforehand. Using this measurement,the gastric skirt 400 can be tailored to provide a customized fit (forexample, 10-30% smaller in diameter than the measurement to accommodatethe tuck). The prior measurement reduces the risk of overtucking oroverstretching or damaging the gastric skirt 400 when it is beingpositioned around the stomach, and can allow for a smooth and evencustomized fit (see also FIGS. 5A, 5B, and 5C).

This conical cylinder design allows a single gastric skirt to properlyhold various portions of the stomach, even though the stomach may varyin size throughout. The use of a single gastric skirt reduces thecomplexity of the system and reduces the possibility of complicationswhich may arise due to uneven pressure resulting from multiple skirtsaround the stomach. Alternatively, multiple, separately-sized gastricskirts, such as, one for a larger portion of the stomach, and one for asmaller portion of the stomach, may be used.

FIG. 5A is a view of a gastric skirt 500 placed in position around astomach. The gastric skirt 510 is designed to cover substantially all ofthe greater or outer curvature 502, and substantially all of the lesseror inner curvature 504. As shown in FIG. 5A, a portion of the fundus 506and the antrum/pylorus 508 may be tucked or covered or restricted by thegastric skirt 510.

In another embodiment, the gastric skirt 510 can be designed to cover asmaller portion of the greater curvature 502 and/or a smaller portion ofthe lesser curvature 504, instead of covering the entire respectivesurfaces. Furthermore, the gastric skirt 510 can be designed to coverother surfaces of the stomach in addition to the greater curvature 502and/or the lesser curvature 504. For example, the gastric skirt 510 mayhave a larger surface area and cover the fundus 506 and/or theantrum/pylorus 508, or portions thereof, in addition to portions of thegreater curvature 502 and/or the lesser curvature 504.

Unlike conventional gastric-restraint devices, such as the LAP-BAND®,the gastric skirt 510 is not placed between the cardia 514 and thefundus 506 forming a pouch. Furthermore, the gastric skirt 510 is notplaced around the esophagus 512. As described above, the gastric skirt510 is instead fitted or positioned around the body of the stomach 500(i.e., around surfaces of the greater curvature 502 and the lessercurvature 504 of the stomach 500).

FIG. 5B is a view of a modular gastric skirt placed in position around astomach 500. The modular skirt 510 is shown as three strips 510A, 510B,and 510C connected to one another. The male and female connectors areshown as 516, 518, and 520, respectively.

FIG. 5C is a view of a gastric skirt 510 placed in position around astomach 500 that shows a tucked-in portion of the stomach. In thisexample, the greater curvature 502 is tucked into the body of thestomach 500 and the gastric skirt 510 is placed around the tuckedstomach to secure the tucked portion in place. The tucked portion ispushed into the body of the stomach, thus reducing the internal volumeof the stomach.

FIG. 6 is a view of a laid-open butterfly-shaped gastric skirt 600. Thegastric skirt 600 has an indentation 602 on one side and an indentation604 on the opposing side. The proximal end 606 and the distal end 608can include connectors and receivers, respectively, so that when thegastric skirt 600 is folded, the proximal end 606 and the distal end 608can be connected together.

Indentations 602 and 604 can be any shape such as an ellipse, oval,hourglass, or semicircular shape as shown in FIG. 6. For example, eachof the indentations 602 and 604 can be formed in the shape of a square,a triangle, an oval, a semi-circle, an ellipse, a wave, a curve, or anyother shape that creates an indentation. The size of each indentation602 and 604 can be varied in order to provide an optimal fit around thestomach. Indentations 602 and 604 do not necessarily have to be the sameshape or size as one another.

Furthermore, optional wing 610 is attached on one substantiallyhorizontal portion adjacent to indentation 604, and optional wing 612 isattached on the other substantially horizontal portion adjacent toindentation 604. The wings 610 and 612 are used to attach the gastricskirt 600 to collar connector straps (shown in FIGS. 10A, 10B, and 11).Similarly, the side of the gastric skirt 600 with indentation 602 haswings 614 and 616 attached. In another embodiment, the gastric skirt 600can have no wings attached, or wings only on one side. The dashed lineindicates that the gastric skirt 600 can have two or more modular piecesconnected to one another similar to that shown in FIG. 2B.

FIG. 7 is a view of a folded butterfly or step ladder-shaped gastricskirt 700. Once the distal end 712 and the proximal end 714 areconnected together by coupling the connectors and receivers, a narrowsurface 702 fits the lesser curvature of the stomach and is formed onone side of the gastric skirt 700 between indentation 704 andindentation 706. On the side opposite to the narrow surface 702 is thewide surface 708 which fits the greater curvature of the stomach.

In this embodiment, the narrow surface 702 of the butterfly-shapedgastric skirt 700 can be used to cover the lesser curvature of thestomach. Likewise, the broad surface 708 can be used to cover thegreater curvature of the stomach.

In another embodiment, instead of having connectors and receivers tocouple the gastric skirt 700, the distal end 712 and the proximal end714 can be sutured or stapled together.

FIG. 8A is a view of a laid-open oval or pear-shaped skirt 800. In thisembodiment, the gastric skirt 800 has a protrusion 802 on one side and aprotrusion 804 on the opposing side. The proximal end 806 includesfemale connectors 820 and 821, and the distal end 808 includes maleconnectors 818 and 819. Therefore, when the gastric skirt 800 is folded,the proximal end 806 and the distal end 808 can be connected by securingthe male connectors 818 and 819 into the female connector 820 and 821,respectively. In an embodiment, the width of the proximal end 806 andthe distal end 808 is from about 4 centimeters to about 6 centimetersand the width between the protrusion 802 and the protrusion 804 is fromabout 8 centimeters to about 14 centimeters.

Outward protrusions 802 and 804 can be any shape, and not limited to, anoval, pear or semicircular shape as shown in FIG. 8A. For example, eachof the outward protrusions 802 and 804 can be formed in the shape of asquare, a triangle, or any other shape. The size of each outwardprotrusion 802 and 804 can also be varied in order to provide an optimalfit around the stomach. Furthermore, the outward protrusions 802 and 804do not necessarily have to be the same shape or size as one another.Optional wings 810 and 812 may be attached to outward protrusion 804,and optional wings 814 and 816 may be attached to outward protrusion802. In another embodiment, the gastric skirt 800 can have no wingsattached, or wings only on one side.

FIG. 8B is a view of a laid-open oval or pear-shaped skirt 800 having apouch 822 that holds a balloon 1500. When the skirt 800 is wrappedaround the stomach, the balloon 1500 can be secured in the pouch 822 orbe inserted into the pouch 822 to keep the tucked-in portion within thestomach.

FIG. 8C is a view of a modular laid-open oval or pear-shaped skirt 800having a pouch 822A and 822B that holds a balloon. The modular gastricskirt 800 may have two or more strips or modules. Each strip may have aridge 824 and/or a groove 826 for attachment to adjacent strips. Theridge 824 securely fits into the groove 826 along the length of eachstrip to prevent unwanted detachment of adjacent strips and anyin-growth of tissue between adjacent strips. The pouch 822 comprises twopieces 822A and 822B since the skirt 800 is modular.

FIG. 9A is a view of a folded gastric skirt 900 with locking clips. Thegastric skirt 900 includes a proximal end 903 and a distal end 905. Whenthe gastric skirt 900 is folded so that the proximal end 903 and thedistal end 905 connect, a hollow shaped gastric skirt 900 is formed witha skirt body 902. Each locking clip comprises a male connector 904, 906,or 908, and a corresponding female receiver 914, 912, or 910,respectively. A right wing 916 and a left wing 918 are placed onopposite sides of one end of the skirt body 902. The wings 916 and 918are used to connect the gastric skirt 900 to a collar (see also FIG.11).

FIG. 9B is a view of a locking clip for the gastric skirt 900 shown inFIG. 9A. The locking clip 920 comprises the male connector 908, whichincludes a connector strap pin 922. The locking clip 920 also comprisesthe female connector 910. To engage the locking clip 920, the connectorstrap pin 922 interlocks with an opening in the female connector 910.Once the male connector 908 and the female connector 910 are engaged,the locking clip 920 holds a portion of the skirt body together.Furthermore, the male connector 908 includes a lower portion 926 whichextends outwards. The female connector 910 includes an upper portion 924which also extends outwards. When the male connector 908 and the femaleconnector 910 are engaged, the lower portion 926 rests underneath theupper portion 924.

FIG. 10A is a view of a gastric skirt 1002 with a harness system 1000.The harness system 1000 may include a gastric skirt 1002, an uppercollar 1004, and connector straps 1006 and 1008. The gastric skirt 1002is placed around the body of the stomach as previously described in FIG.5A. In another embodiment, a lower collar (not pictured) is alsoincluded, allowing the upper collar 1004 and the lower collar to work inconjunction to hold the gastric skirt 1002 in position.

The upper collar 1004 is connected to the gastric skirt 1002 via theconnector strap 1006 and the connector strap 1008, which are both, forexample, connecting straps. The connector strap 1006 includes a skirthook 1016 and a collar hook 1018. Likewise, the connector strap 1008includes a skirt hook 1020 and a collar hook 1022. Regarding theconnector strap 1008, the skirt hook 1020 connects to the gastric skirt1002 at a wing 1012. The collar hook 1022 connects to the collar 1004 ata wing 1014. Regarding the connector strap 1006, the skirt hook 1016connects to the gastric skirt 1002 at a wing 1010. The collar hook 1019connects to the collar at a wing (not shown) located at a substantiallyparallel location as wing 1014 on the opposite side of collar 1004.

The connector strap 1006 has a flexible connector strap 1024 toaccommodate angulations to various anatomical differences where theskirt hook 1016 and the collar hook 1018 connect with each other.Likewise, the connector strap 1008 has a flexible connector strap 1026where the skirt hook 1020 and the collar hook 1022 connect with eachother. The flexible connector straps 1024 and 1026 help to accommodateany angulations of the stomach in relation to the lower esophagus andthe fundus or the stomach and the pylorus, as well as help toaccommodate the angles and contractility or peristaltic movements of thestomach. In an embodiment, the connector straps 1024 and 1026 can bendfrom 1 degree to 90 degrees in any direction, and in a preferredembodiment, the connector straps 1024 and 1026 can bend from 10 degreesto 60 degrees in any direction to accommodate movements of the stomach.

FIG. 10B is a side-view of the gastric skirt 1002 with a harness system1000. In an embodiment, the gastric skirt 1002, the upper collar 1004,the lower collar (not shown), the connector strap 1008, and theconnector strap 1006, all have the same thickness and are all made ofthe same material. In an embodiment, this thickness is up to 1/35,000thof an inch.

FIG. 11 is a view of a gastric skirt 1102 with a harness system inposition around a stomach 1100. The gastric skirt 1102 is placed alongthe greater curvature 1122 and the lesser curvature 1120 of the stomach1100. An upper collar 1104, also known as the cardia collar, is placedaround the lower end of esophagus 1108 at a position near or adjacent tothe cardiac receiver 1112. The upper or cardia collar 1104 is largeenough in diameter to encircle the lower esophagus 1108, but smallenough so that it cannot encircle the larger diameter portion of theesophagus 1110. The upper collar 1104 is connected to the gastric skirt1102 via a connector strap 1126. The connector strap 1126 is attached tothe upper or cardia collar 1104 at a wing 1122, and the connector strap1126 is attached to the gastric skirt 1102 at a wing 1124. This designprevents the upper collar 1104 from moving very high up the esophagus1110, helps to hold the gastric skirt 1102 in place, and may help inreducing gastro esophageal reflux (“gastric reflux”) or achalasia ordysphagia after the procedure.

The lower collar 1106, also known as the antral collar, is placed arounda lower portion of the stomach near the angular receiver 1134 at thepylorus 1116, also known as the pyloric antrum receiver. The lowercollar 1106 is large enough in diameter to encircle part of the lowerportion of the stomach near the pylorus 1116, but small enough so thatit cannot encircle the larger diameter portion of the small intestine1118. The lower collar 1106 is connected to the gastric skirt 1102 viaconnector strap 1132. The connector strap 1132 is attached to the lowercollar 1106 at a wing 1128, and connector strap 1132 is attached to thegastric skirt 1102 at a wing 1130. This design prevents the lower collar1106 from moving down into the small intestine 1118, and helps to holdthe gastric skirt 1102 in place. Furthermore, the lower collar 1106 mayassist in slowing the gastric emptying from the stomach into the smallintestine 1118. The lower collar 1106 may also assist in anchoring thegastric skirt 1102 in place.

In another embodiment, only the upper collar 1104 is attached to thegastric skirt 1102, and a lower collar 1106 is not present. As thevolume of the fundus 1114 fills with food, the fundus 1114 stretches andexpands, preventing the gastric skirt 1102 from sliding upwards. Thus,the lower collar 1106 may not necessarily be required in all patients tohelp hold the gastric skirt 1102 in place around the stomach 1100.Alternatively, in another embodiment, only the lower collar 1106 isattached to the gastric skirt 1102 and an upper collar 1104 is notpresent.

The gastric skirt 1102 and harness system are modular, and providespatients with at least three different options. In the first option,only the gastric skirt 1102 is utilized, without the collars 1104 and1106 and the connector straps 1126 and 1132. In this embodiment, thehealthcare professional may decide to not include the collars 1104 and1106 if there is not a high risk of gastric reflux or achalasia, or ifthere is not a high risk that the gastric skirt 1102 may be displaced.

In the second option, the gastric skirt 1102 is utilized along with thecollar 1104, but without the collar 1106 and without the connectorstraps 1126 and 1132. In this embodiment, the gastric skirt 1102 and thecollar 1104 are not connected to each other. The healthcare professionalmay decide on this option if there is a risk of gastric reflux,achalasia, dysphagia but not a high risk that the gastric skirt 1002 orthe collar 1104 may be displaced.

In the third option, the gastric skirt 1102 is utilized with the collars1104 and 1106 and the connector straps 1126 and 1132. The healthcareprofessional may decide on this option if there is a risk of gastricreflux, or dysphagia and a risk of that the gastric skirt 1102 orcollars 1104 and 1106 may be displaced. In this option, both the uppercollar 1104 and the lower collar 1106 do not need be utilized, and onlyone of the collars 1104 or 1106 can be used. The upper collar 1104 notonly serves to hold the gastric skirt 1102 in place, but is also amechanism to help reduce gastric reflux and dysphagia.

The modular design allows the healthcare professional to decide whichcomponents of the gastric skirt system will be utilized, as well as theorder of insertion of the various components.

In an embodiment, the upper collar 1104 and the lower collar 1106 eachhave a diameter from about 4 centimeters to about 6 centimeters. Theupper collar 1104 can have a larger diameter up to about 11 centimetersin cases where the patient suffers from esophageal achalasia. In anembodiment, the length of the upper collar 1104 and the lower collar1106 is up to about 4 centimeters.

The length of connector straps 1126 and 1132 can be varied toaccommodate various stomach sizes. In a preferred embodiment, connectorstrap 1126 and connector strap 1132 have a length of about 5centimeters.

The gastric skirt 1102 can have a length of about 6 centimeters to about14 centimeters. In a preferred embodiment, the length of the gastricskirt 1102 is from about 8 centimeters to about 12 centimeters. Thewidth of the greater curvature side of the gastric skirt 1102 is fromabout 7 centimeters to about 10 centimeters, and the width of the lessercurvature side of the gastric skirt 1102 is from about 3 centimeters toabout 5 centimeters.

Some patients who undergo various gastric banding procedures experiencegastric reflux, and it is believed that gastric banding procedures maycause or aggravate gastric reflux. Gastric reflux occurs when irritatingstomach contents, such as acid, accumulate in the stomach outside of thelower esophagus entrance, and eventually, leak or regurgitate back intothe esophagus. This leakage, over time, causes the lower esophagus tolose its tone, leaving the lower esophagus entrance poorly controlled,tortuous, unconstructed or floppy.

The upper collar 1104 may be approximately the same size as the loweresophagus or may be slightly larger. Once in position, the upper collar1104 applies support by forming a significant wrap around the lower endof the esophagus 1108 or the cardia. The upper collar 1104 restricts thelower end of the esophagus opening 1108 and attempts to minimizeregurgitation, thereby reducing gastric reflux.

FIG. 12 is a view of an exemplary connector strap. The connector strap1200 has a lower portion 1232 and an upper portion 1234. The lowerportion 1232 corresponds to the skirt hook 1202. The upper portion 1234corresponds to the collar hook 1204. The connector strap 1200 has askirt hook 1202 and a collar hook 1204. The skirt hook 1202 includesconnector strap pin 1206, connector strap pin 1208, and extendingportion 1226. The collar hook 1204 includes a hole 1210 through ridge1222 and a second hole (not shown) through ridge 1224. The collar hook1204 also includes a cavity 1220. The connector strap pins 1206 and 1208are smaller in diameter than the diameters of hole 1210 and the secondhole through ridge 1224. This design allows increased flexibility as theconnector strap pins 1206 and 1208 have space to re-position with theirrespective holes when the connector strap 1200 is rotated or shifted.

To connect the skirt hook 1202 and the collar hook 1204 together,connector strap pin 1206 is inserted into hole 1210, and connector strappin 1208 is inserted into the second hole through ridge 1224. Theextending portion 1226 is inserted into the cavity 1220. Once the skirthook 1202 and the collar hook 1204 are connected, the connector strap1200 is formed.

The skirt hook 1202 also includes hole 1216 and connector strap pin1218. To attach the connector strap 1200 to a wing (not shown) on thegastric skirt (not shown), the wing is placed inside the connector strapcavity 1228 so that connector strap pin 1218 is inserted through thewing. To secure the wing to the skirt hook 1202, the connector strap pin1218 is pushed through the hole 1216. The connector strap pin 1218 has atriangular shape, with a narrow top and a wide base. The diameter of thebase of the connector strap pin 1218 is larger than the diameter of hole1216. This design allows the connector strap pin 1218 to be securelyfastened once it is inserted through hole 1216. Likewise, the collarhook 1204 includes a hole 1212, a connector strap pin 1214, and aconnector strap cavity 1230 to secure the collar hook 1204 to a wing onthe collar (not shown).

In an embodiment, the connector strap 1200 is made of an elastomer, suchas silicone. However, the connector can be made from other types ofelastomers or thermoplastic polymers, ePTFE, Dacron®, or any combinationthereof.

FIG. 13A is a view of a collar. The collar 1300 includes a locking clip1302. The collar 1300 has a distal end 1304 and a proximal end 1306. Thedistal end 1304 and the proximal end 1306 are connected by the lockingclip 1302. The collar 1300 further includes a first wing 1308 and asecond wing 1310 that are used to secure the collar 1300 to the gastricskirt connector strap (not shown).

In order to place the collar 1300 around the lower esophagus or cardia,the locking clip 1302 is not engaged, so that the distal end 1304 andthe proximal end 1306 are laid open. The collar 1300 is then fittedaround a portion of the lower esophagus as described above. Once thecollar 1300 is in place, the locking clip 1302 is engaged by connectingthe distal end 1304 and the proximal end 1306 together.

FIG. 13B is a view of a locking clip for a collar 1300. The maleconnector 1312 includes a connector strap pin 1316 which interlocks withan opening in the female connector 1314. Once the male connector 1312and the female connector 1314 are engaged, the locking clip holds thecollar in position.

FIG. 13C is a view of a collar 1300 without wings. The collar 1318 isused when a collar is not required to be connected to the gastric skirt(not shown), such as in surgical option one discussed above.

The locking clip 1302 can be any type of locking, coupling, or claspingmechanism, and is not limited to the male connector 1312 and femaleconnector 1314 designs shown in FIGS. 13A-D. For example, the maleconnector may be an insertable clip, and the female connector caninclude an opening to receive and secure the insertable clip. In anotherembodiment, the clip can slide in and out of the body of the skirt, andcan have an elastic component that stretches to accommodate the size andshape of the stomach.

In an embodiment, the collar 1300 and locking clip 1302 are made from acomposition of silicone and PTFE/ePTFE. However, the collar 1300 andlocking clip 1302 can be made from other elastomers or thermoplasticpolymers, or any combination thereof.

In another embodiment, the distal end 1304 and proximal end 1306 can besutured or stapled together at the time of positioning by the healthcareprofessional.

In yet another embodiment, the collar 1300 can be shaped as asemicircular ring, or in a “C” shape, and be made of a memory-retainingmaterial. Once the collar 1300 is placed around a portion of the loweresophagus, it retains its shape. Thus, a locking clip is not required.

FIG. 13D is a view of a laid-open collar 1300. The collar 1300 is in astrap form when the male connector 1312 and the female connector 1314are not connected.

As described above and shown in FIG. 1B, a portion of the stomach istucked inwards prior to application of the gastric skirt around thestomach.

FIG. 14 is a cross-sectional view of a stomach 1400 and a balloon 1402positioned within a greater curvature 1406 of the stomach 1400 when thegreater curvature 1406 is tucked into the stomach 1400. In anembodiment, after the greater curvature 1406 of the stomach 1400 istucked inwards, a cavity 1404 is formed as a result of the tuckingprocedure and a balloon 1402 is placed within the cavity 1404, which canbe left open, and a gastric skirt 1412 is tightly positioned around thestomach 1400 to hold the balloon 1402 in place within the cavity 1404.Hence, the balloon 1402 is placed within the tucked-in portion of thestomach 1400. Alternatively, the balloon 1402 may be placed within apouch 1414 that is attached to the gastric skirt 1412. The greatercurvature 1406 of the stomach 1400 is pushed inwards to reduce the innervolume 1410 of the stomach 1400. The balloon 1402 applies pressureagainst the greater curvature 1406 of the stomach 1400 and helps tomaintain the shape of the cavity 1404. Following the placement of theballoon 1402, the gastric skirt 1412 is placed around the stomach 1400as described above. In this embodiment, when the gastric skirt 1412 ispositioned around the stomach 1400, the connectors as shown in FIG. 5Bconnect with one another along the lesser curvature 1408 of the stomach1400.

As described above, the greater curvature 1406 of the stomach 1400 isthe preferred tucking portion. However, the tucked-in portion of thestomach 1400 may be a portion of the lesser curvature 1408, or anyportion of the stomach 1400 not along either the greater curvature 1406or the lesser curvature 1408. If the tucked-in portion of the stomach1400 is along the lesser curvature 1408, then the connectors as shown inFIG. 5B connect with one another along the greater curvature 1406 of thestomach 1400.

FIG. 15A is a view of the balloon of FIG. 14. The balloon 1500 can be asealed or open ended stent, cylindrical air filled or saline filleddevice with an ePTFE, Dacron®, or silicon coating or covering. Theballoon 1500 is preferably made of an alloy of nickel and titanium(Nitinol) or stainless steel wire cage which provides the balloon 1500with a self-expanding memory. The unique characteristic of this alloy,known generally as “Nitinol,” is that it has a thermally triggered shapememory. This allows the balloon cage to be crimped per a desired length,width, and volume based on the balloon size required per patient'sstomach dimensions, and then the balloon 1500 is crimped into a sheathso that it can fit through a trocar (not shown). The balloon 1500regains its desired shape when deployed at room temperature, such as thetemperature of the human body or outer stomach lining.

The semi-rigid or rigid Nitinol or stainless steel wire frame is coveredwith ePTFE, silicone, Dacron® or any other elastomer or thermoelasticelstomer, nitinol cage. The balloon 1500 provides support to the outerlining of the stomach when the balloon 1500 is placed in position withinthe cavity 1404 of FIG. 14. The desired shape of the balloon 1500 isretained even under pressure from the stomach lining or the gastricskirt (not shown) since Nitinol or stainless steel or titanium wire cageis rigid and has memory. After the balloon 1500 is placed in position,the gastric skirt is placed around the stomach as described above.

In one embodiment, the self-expanding nitinol cage or stainless steelwire cage balloon 1500 is covered with silicone, and is formed in theshape of a cylindrical balloon, and can have open or closed ends. Inanother embodiment, the self-expanding nitinol balloon 1500 is coveredwith ePTFE, and can have open or closed ends.

FIG. 15B is a view of a balloon 1502 with a port 1504. The balloon 1502is made entirely of silicone, other elastomers, thermoplastic polymers,or any combination thereof, and may be filled with air or liquid (e.g.,saline) and methylene blue and has a closed end and a port 1504 toinject air, liquid or methylene blue. The methylene blue is used todetect leaks of the balloon 1502.

The balloon 1500 has a length of about 7 centimeters to about 10centimeters. In an embodiment, the diameter of the balloon 1500 is fromabout 1 centimeter to about 3 centimeters. However, the diameter of theballoon 1500 can be adjusted by the healthcare professional based on theamount of stomach that is tucked-in.

FIG. 16 is a view of the gastric skirt of FIG. 6 and the balloon inposition around a stomach. As seen in FIG. 16, connectors 1604 and 1606are positioned on the lesser curvature side 1610 of the stomach 1600.Balloon 1602 is positioned on the greater curvature side 1612 of thestomach 1600. In this embodiment, the connectors 1604 and 1606 are noton the greater curvature side 1612 so that there is room for the balloon1602 to be retained and held in place by the gastric skirt 1608 withinthe tucked-in portion (not shown) of the stomach.

Furthermore, optional wings 1612 and 1614 are attached to the gastricskirt 1608 to attach the gastric skirt 1608 to collar connector straps(not shown).

FIG. 17 is a view of one or more ropes 1702 wrapped around a tucked-instomach 1700. The ropes 1702 may be made of a biodegradable material ora woven silicon material or any other material described herein. Thestomach 1700 is tucked-in and then the ropes 1702 are wrapped around thestomach 1700. Each rope 1702 can be a silicone rope, a mesh made ofbiodegradable elastomer, a metal, an alloy, a silicone or thermo-elasticmaterial to harness the stomach or to create the pouch proximally ordistal to the body of the stomach or to produce the same effect as thegastric skirt by tucking the stomach.

FIG. 18 is a view of one or more tentacles 1802 wrapped around atucked-in stomach 1800 where the tentacles 1802 can be independentlypulled and locked in place using a ring and clip system 1808 or a tielock (not shown). Each tentacle 1802 can be independently tighten andloosened to control the tension. Each tentacle 1802 can be pulledthrough a ring or hole and the clip can lock the tentacle in place. Thetentacles 1802 can be wrapped around the greater curvature 1806 and thelesser curvature 1804 of the stomach 1800. The tentacles 1802 can be anyshape, such as straight or curved, and are not limited to the designshown in FIG. 18. Furthermore, the tentacles 1802 can be made of anexpandable material originating from the body at the lesser curvature1804 or the greater curvature 1806.

FIG. 19 is a view of an inflatable gastric skirt 1902 positioned arounda stomach. In an embodiment, the gastric skirt 1902 is positioned aroundthe stomach along the lesser curvature 110 and the greater curvature112, similar to the gastric skirt 200 described above. The gastric skirt1902 includes one or more fillable or inflatable chambers that areattached to an interior surface of the gastric skirt 1902.

In an embodiment, the gastric skirt 1902 is inflated via a tube 1904that is connected to the one or more inflatable chambers. The tube 1904includes an inlet 1906 that can be located slightly beneath the skin ofthe patient. The tube 1904 also includes an outlet 1908 which isconnected to the one or more inflatable chambers 2008 (see also FIG.20). In an embodiment, the inlet 1906 can be sutured or stapled beneaththe skin so that it is accessible via an incision.

In another embodiment, the inlet 1906 can include an RFID tag with anantenna to assist a healthcare professional in locating the inlet 1906for subsequent adjustments. An external RFID locator or reader, such asin a handheld device, can be used to locate the inlet 1906 so that asyringe can be inserted directly into an access cavity of the inlet1906.

FIG. 20 is a view of an inflatable gastric skirt and a triple-lumen tube1904. In an embodiment, the tube 1904 includes three separate lumens2002, with each lumen connected to a separate inflatable chamber 2008.In another embodiment, the tube 1904 can include a single lumen or adouble lumen. In yet another embodiment, the tube 1904 can include fouror more lumens, with each lumen connected to a separate inflatablechamber that can be filled with a fluid.

In an embodiment, the gastric skirt 1902 can be positioned around thestomach and secured into place via clips 2010. In an embodiment, thegastric skirt 1902 is configured to cover at least 14 square centimetersof the outer surface of the stomach 100. Thus, the gastric skirt 1902has a surface area of at least 14 square centimeters. Once in place, thegastric skirt 1902 can be further tightened around the stomach byinflating, filling, or expanding the chambers 2008. Upon inflation ofthe inflatable chambers 2008, the gastric skirt 1902 appliesconstriction pressure around or to the stomach. The level of inflationcan be determined based on a desired stomach constriction level.

In an embodiment, the gastric skirt 1902 includes an inflatable collar2006 configured to surround the lower esophageal/cardia portion of thestomach. The inflatable collar 2006 is coupled to the gastric skirt 1902via two or more connector straps 2004. The inflatable collar 2006provides a harness and adds stability to the gastric skirt 1902 afterthe gastric skirt 1902 has been positioned around the stomach.

Referring to FIGS. 48A-B, the clips 2010 can each include a male tooth4802 and a female receiver 4804 configured to engage the male tooth4802. Upon insertion of the male tooth 4802 into the female receiver4804, the male tooth 4802 releasably locks with the female receiver 4804as shown in FIG. 48B. The clips 2010 may include a release tab 4806which releases the male tooth 4802 from the female receiver 4804 uponthe application of pressure to the release tab 4806. Further, thelocking mechanism can have a “pop-fit” design that provides a tactileindication that the gastric skirt 1902 is secured in place. The lockingmechanism of the gastric skirt 1902 is not limited to the clips 2010shown in FIGS. 48A-B, but can be any type of connecting mechanism whichcan securely connect the two opposite ends of the gastric skirt 1902around the stomach.

In another embodiment, the gastric skirt 1902 does not have connectors,but the ends of the gastric skirt 1902 are attached to one another bystaples, sutures, or heat fusion after the gastric skirt 1902 ispositioned around the stomach 100.

FIG. 21 is a view of an inflatable gastric skirt without a harnesssystem. The gastric skirt 1902 includes connector holes 2102 where theconnector straps 2004 (not shown) are attached. The connector holes 2102and corresponding tabs 2104 are optional depending on whether theharness system is being used. In an embodiment, the gastric skirt 1902is a standalone device without the harness system, and can be positionedaround the stomach without the collar 2006 and the connector straps2004.

FIG. 22A is a view of a gastric skirt 1902 having one or more inflatablechambers 2008. In an embodiment, each of the lumens 2002 is connected toa valve 2202. Each valve 2002 is connected to a separate inflatablechamber. In another embodiment, a single valve is located on the tube1904 near the inlet 1906, and controls delivery to all of the chambers2008. Each lumen 2002 can also be directly connected to a separateinflatable chamber 2008 without a valve 2002.

FIG. 22B is a view of a cavity 2204 of a triple-lumen tube 1904. Thetube 1904 has a cavity 2204 that contains three separate lumens 2002.Each of the lumens 2002 is connected via a valve 2002 to a separateinflatable chamber, as shown in FIG. 22A. In an embodiment, each of thelumens 2002 has a separate inlet so that a different fluid can beadministered through each of the lumens 2002. In another embodiment, thetube 1904 can include switches which allow an operator to close or opencertain lumens 2002. Thus, a single inlet can be used to administer thefluid; however, a switch or valve can be used to close the second andthird lumens, while allowing the fluid to pass through the first lumenand into the first chamber.

FIG. 23 is a view of the interior of a triple-lumen tube. The tube 1904includes three separate lumens, a first lumen 2302, a second lumen 2304,and a third lumen 2306. Surrounding the lumens 2002 is the tube 1904.The tube 1904 and the lumens 2002 are relatively flexible and may bemade of a non-porous elastomer, such as, but not limited to, silicone,polypropylene, polyethylene terephthalate, polytetrafluoroethylene,polyaryletherketone, nylon, fluorinated ethylene propylene,polybutester, or any combination thereof. In an embodiment, the tube1904 and the lumens 2002 are made of the same material. In analternative embodiment, the tube 1904 and the lumens 2002 are made ofdifferent materials.

FIG. 24 is an interior view of an inflatable gastric skirt. In anembodiment, the tube 1904 has a staggered lumen design, so that each ofthe three lumens has a different length. The first lumen 2302 outputsinto the first chamber 2408, the second lumen 2304 outputs into thesecond chamber 2410, and the third lumen 2306 outputs into the thirdchamber 2412. In an embodiment, the third lumen 2306 is longer than thesecond lumen 2304, and the second lumen 2304 is longer than the firstlumen 2302, thus creating a staggered lumen design within the tube 1904.In another embodiment, each of the lumens 2002 in the tube 1904 hasapproximately the same length, and each lumen directly connects to itsrespective chamber.

In an embodiment, the chambers 2008 are relatively flexible orsemi-flexible and may be made of a non-porous elastomer such as, but notlimited to, silicone, polypropylene, polyethylene terephthalate,polytetrafluoroethylene, polyaryletherketone, nylon, fluorinatedethylene propylene, polybutester, or any combination thereof. In anembodiment, certain chambers can be selectively filled with fluid. Forexample, fluid can be administered to only the first chamber 2408 andthe third chamber 2412, leaving the second chamber 2410 unfilled ordeflated. In another embodiment, each of the chambers 2008 can beinflated to different fluid amounts resulting in different pressurelevels within each chamber.

The fluid administered into each chamber 2008 can include saline, air,water, gel, gas, or any other biocompatible fluid or viscous solid. In apreferred embodiment, the fluid is concentrated saline. In anotherembodiment, the fluid includes methylene blue. Different fluids can beadministered through each lumen, thus, allowing each chamber to befilled with a different amount and/or type of fluid. For example, thefluid administered through the first lumen 2302 and the second lumen2304 can be saline, and the fluid administered through the third lumen2306 can be a gas.

FIG. 25 is a view of a triple-lumen inlet port. The inlet 1906 includesan access hole 2502 or a septum 2502 that covers all the lumen openings.A needle may be used to pierce the septum 2502 and allow a healthcareprofessional to fill fluid into the lumens 2302, 2304, and 2306. Theseptum 2502 may have a visible marker on top to indicate where theneedle should be positioned for filling each of the lumens. The septum2502 may automatically be sealed when the needle is removed to preventfluid for exiting the lumens. In one embodiment, the inlet 1906 is madeof a semi-rigid elastomer.

FIG. 26 is a view of an inflatable gastric skirt and an inflationdevice. In an embodiment, to inflate the gastric skirt, a non-coringneedle and syringe 2602 can be used to administer fluid to the accesshole or septum 2502. To deflate the chambers 2008, the inlet 1906 isconnected to a suction device 2602 which pulls the fluid out from thechambers 2008 or the needle 2602 can be reinserted through the septum2502 which is used to remove the fluid from the lumens, which results influid being removed from the chambers 2008. The suction device 2602 canbe, for example, a syringe, a vacuum, or any other means to withdrawinflation fluid from the chambers 2008. In another embodiment, the inlet1906 can be connected to an automated system for inflation and deflationof the chambers, so that manual adjustment of the gastric skirt 1902 isnot required.

In an embodiment, the inlet 1906 includes a reservoir which holds fluid.For example, the reservoir can be pre-filled during insertion of thegastric skirt 1902 around the stomach. The reservoir can automaticallyadminister fluid to the lumens 2002 over a pre-determined time period.In another embodiment, the reservoir can include dual tanks, one tank todeliver fluid to the chamber, and another tank to remove fluid from thechamber. The dual tanks can automatically inflate or deflate thechambers 2008 based on fluid pressure changes resulting from movement ofthe patient and the stomach.

The gastric skirt 1902 can have a microprocessor and sensors attachedthereto to determine the fluid pressure and free volume within eachchamber. Upon receipt of the fluid pressure and free volume data, themicroprocessor can be used to activate fluid transfer between thedifferent chambers in order to compensate for fluid displacement due topatient and stomach movements. The fluid transfer can ensure that adesired amount of pressure is constantly being applied from each chamberto the stomach. In another embodiment, the microprocessor can controlthe reservoir, and administer or draw fluid based on the sensorreadings.

The gastric skirt 1902 may include at least one pressure sensor locatedwithin the tube 1904 and at least one pressure sensors located withinthe chambers 2008 to measure fluid movement and fluid pressure withinthe chambers 2008. A receiver located within the gastric skirt 1902 cantransmit data to a remote controller, such as, for example, an externalhandheld computer, desktop computer, monitoring system, or an onlineweb-based monitoring portal.

In an embodiment, the remote controller includes microprocessors toanalyze the data for pressure variations and determine optimal fillvolumes for the chambers 2008. This analysis can assist a healthcareprofessional in adjusting the inflation levels in the chambers 2008.Alternatively, the data can be used by the remote controller toautomatically adjust the fluid levels based on pre-determinedconstriction pressures. In an embodiment, each of the different chamberscan have a separate pressure sensor, allowing monitoring and adjustmentof fluid within each individual chamber.

Each chamber can have multiple entry points for the lumens, so that ablockage in one portion of a lumen or a chamber will not prevent thechamber from being filled with fluid. For example, the first lumen 2302can have multiple branches which allow inflation fluid into the firstchamber 2408. Thus, if one of the branches is blocked or obstructed, theother branches on the first lumen 2302 will continue to fill the firstchamber 2408.

In another embodiment, the reservoir can be controlled via animplantable pump that is powered by an implantable energy source, suchas batteries or capacitors. Alternatively, the pump can be powered by apassive device located outside the body via energy transferred through,for example, radio frequency, induction, or electromagnetic energy.

In another embodiment, the tube 1904 is removable. After the gastricskirt 1902 has been placed around the stomach, and adjusted to provide adesired constriction pressure, the healthcare professional can removethe tube 1904. In this embodiment, the gastric skirt 1902 is designed tobe inflated and adjusted only at the time of insertion. Following theinitial inflation and adjustment, the outlet 1908 can be detached fromthe gastric skirt 1902, and the tube 1904 can be removed from the body.In order to inflate or deflate the gastric skirt 1902 after the initialsurgery to insert the gastric skirt 1902, the outlet 1908 of the tube1904 needs to be re-attached to the gastric skirt 1902 via a surgicalprocedure.

FIG. 27 is a view of a laid-open inflatable gastric skirt. In anembodiment, the chambers 2408, 2410 and 2412 are attached to orintegrated with an interior portion 2702 of the gastric skirt 1902. Thefirst lumen 2302 has an output into the first chamber 2408, the secondlumen 2304 has an output into the second chamber 2410, and the thirdlumen 2306 has an output into the third chamber 2412. In anotherembodiment, a single lumen can be utilized instead of multiple lumens.The single lumen can have outlets branching into each of the chambers2408, 2410 and 2412.

FIG. 28 is a view of a connector strap. The connector strap 2004 hasbuttons 2802 that are used to secure the connector strap 2004 to theupper collar 2006 and the gastric skirt 1902. The buttons 2802 areconfigured to snap into the connector holes 2102 on the gastric skirt1902 and corresponding connector holes on the upper collar 2006. Theconnector strap 2004 is relatively flexible or semi-flexible and may bemade of a non-porous elastomer, such as, but not limited to, silicone,polypropylene, polyethylene terephthalate, polytetrafluoroethylene,polyaryletherketone, nylon, fluorinated ethylene propylene,polybutester, or any combination thereof. The connection means betweenthe upper collar 2006 and the gastric skirt 1902 is not limited to theconnector strap 2004, and can be any type of connector which allows alimited movement of the upper collar 2006 irrespective of the movementof the gastric skirt 1902.

FIG. 29 is a lateral view of the inflatable gastric skirt. In anembodiment, the chambers 2008 can have a thickness of 0.05 millimetersto 0.5 millimeters in a collapsed state. In an inflated state, thechambers can have a thickness of 0.5 millimeters to 1.5 centimeters. Thethickness of the chambers 2008 can be varied based on a desiredconstriction pressure. Furthermore, each of the different chambers 2008can be inflated to a different thickness or filled to provide adifferent level of rigidity.

FIG. 30 is a view of an inflatable collar. In an embodiment, aninflatable collar 3002 can be utilized for a harness system. Theinflatable collar 3000 has a chamber 3002 and a tube 3004. In anembodiment, the inflatable collar 3000 has multiple chambers similar tothe chambers 2008 described above for the gastric skirt 1902. The tube3004 can have a single lumen or multiple lumens similar to the tube1904. The inflatable collar 3002 can be used to apply pressure to theantral portion and/or to the lower esophageal/cardia portion of thestomach.

FIG. 31 is a view of an inflatable gastric skirt with dual inflatablecollars. In an embodiment, the lower collar 3102, also known as theantral collar, is placed around a lower portion of the stomach near theangular receiver at the pylorus, also known as the pyloric antrumreceiver. In an embodiment, the lower collar 3102 is large enough indiameter to encircle part of the lower portion of the stomach near thepylorus, but small enough so that it cannot encircle the larger diameterportion of the small intestine. The lower collar 3102 is connected tothe gastric skirt 1902 via the connector straps 2004. This systemprevents the lower collar 3102 from moving down into the smallintestine, and helps to anchor the gastric skirt 1902 in place.Furthermore, the lower collar 3102 may assist in slowing the gastricemptying from the stomach into the small intestine.

In an embodiment, the lower collar 3102 and the upper collar 3000 areboth inflatable. The lower collar has a port 3104, and the upper collarhas a separate port 3006. These ports operate in a similar fashion tothe port 1906 that is used to inflate the chambers of the gastric skirt1902. In another embodiment, the tube 1904 can be connected to thegastric skirt 1902, the lower collar 3102, and the upper collar 3000, sothat a single tube 1904 is used to fill or inflate all of the chambers.

FIG. 32 is a view of an internal surface of an inflatable gastric skirt.In an embodiment, the first chamber 2408, the second chamber 2410, andthe third chamber 2412 may be enclosed within a covering 3202. Thelumens 2002 are enclosed within the covering 3202 in a staggered fashionas described above. In an alternative embodiment, a single inflatablechamber is utilized, and can be inflated using a single-lumen port.

FIG. 33 is a view of a valve and the steps of inflation and deflation.In an embodiment, the valve 3302 is fitted at the inlet 1906 of the tube1904. The valve 3302 has a slitted diaphragm to allow a syringe nozzleto enter. In step 3300, the valve is in a closed position. In step 3304,a syringe nozzle 3303 is inserted through the slitted diaphragm of thevalve 3302. The slitted diaphragm opens up and allows fluid to beinserted through the syringe nozzle 3303. In step 3306, the fluid isinserted through the open valve 3302. In step 3308, the syringe nozzle3303 is removed from the valve 3302, and the slitted diaphragm of thevalve 3302 returns to a closed position.

In an embodiment, to deflate or remove fluid from the chambers, thesyringe nozzle 3303 is inserted into the slitted diaphragm of the valve3302 as shown in step 3310. The syringe nozzle 3303 is used to aspiratethe inflation fluid from the lumens and chamber, thereby deflating orremoving fluid from the chambers. In step 3312, the syringe nozzle 3303is removed from the valve 3302 and the slitted diaphragm returns to aclosed position. In another embodiment, the inlet 1906 can have asimilar design as the valve described in FIG. 33.

FIG. 34 is a view of an inflatable antral skirt. In an embodiment, theantral skirt 3402 can be positioned around the pyloric antrum 114, whichis located between the pyloric sphincter 3408 and the angular receiver3406 in the lower part of the stomach 3404. In an embodiment, the antralskirt 3402 is designed to be placed around a stomach that has undergonea VSG procedure, which is also known as sleeve gastrectomy, verticalgastrectomy, greater curvature gastrectomy, parietal gastrectomy,gastric reduction, longitudinal gastrectomy, or vertical gastroplasty.In the VSG procedure, the stomach 3404 is restricted by stapling anddividing it vertically and removing more than 85% of its surface area.As shown in FIG. 34, the greater curvature 112 of the stomach 3404 istaken in closer to the lesser curvature 110, creating a sleeve-shapedstomach 3404. In an embodiment, the antral skirt 3402 is configured tocover at least 14 square centimeters of the outer surface of the pyloricantrum 114. Thus, the antral skirt 3402 has a surface area of at least14 square centimeters. In an embodiment, the antral skirt 3402 has alength of at least 10 centimeters and a width of at least 4 centimeters.In one embodiment, the thickness of the antral skirt 3402 is up to about1/35,000th of an inch.

In an embodiment, the antral skirt 3402 is inflatable or tillable withfluid through a tube 3410, which operates similar to the tube 1904described above for the gastric skirt 1902. The antral skirt 3402 can beinflated and deflated to provide a desired constriction level around thepyloric antrum 114. In another embodiment, the antral skirt 3402 can beapplied around the pyloric antrum 114 of a stomach that has notundergone a VSG procedure. In yet another embodiment, the antral skirt3402 can be applied in conjunction with a gastric skirt or other type ofgastric constriction device that is placed around the body or fundus ofthe stomach.

Inflation of the antral skirt 3402 constricts the pyloric antrum 114.The pyloric antrum 114 is a portion of the stomach where food andparticles are collected and pumped into the lower intestine. The pyloricantrum 114 also contains receptors that provide indications of fullnessto the brain. When food is pumped into the pyloric antrum 114 from thestomach, the pyloric antrum 114 expands, and receptors provide anindication that the stomach is full. This results in a pumping action bythe pyloric antrum 114 to empty the stomach contents into the intestine.The antral skirt 3402 provides a constant restriction to the pyloricantrum, which leads to early gastric emptying. This mechanism isdescribed in more detail by the disclosure below.

The antral skirt 3402 is relatively flexible or semi-flexible and may bemade of a non-porous elastomer, such as, but not limited to, silicone,polypropylene, polyethylene terephthalate, polytetrafluoroethylene,polyaryletherketone, nylon, fluorinated ethylene propylene,polybutester, or any combination thereof. In another embodiment, theantral skirt 3402 can be made of a biodegradable mesh.

FIG. 35 is a laid-open view of an inflatable antral skirt. In anembodiment, the antral skirt 3402 includes an inflatable chamber 3506.The antral skirt 3402 may or may not include an inflatable chamber 3506.The inflatable chamber 3506 can be inflated or filled with inflationfluid through the tube 3410. The antral skirt 3402 includes a maleconnector 3502 and an opposing female connector 3504. When then antralskirt 3402 is positioned around the pyloric antrum, the male connector3502 and the female connector 3504 interlock to securely hold the antralskirt 3402 in place. The connection means is not limited to theembodiment shown in FIG. 35, and the antral skirt 3402 can be securelyheld in place by clips, straps, sutures, stitching, staples, other typesof connectors, and/or other attachment means.

FIG. 36 is a view of a double-side inflatable gastric skirt. In anembodiment, the gastric skirt 1902 includes a top inflatable layer 3604attached to an exterior surface of the gastric skirt 1902 and a bottominflatable layer 3606 attached to an interior surface of the gastricskirt 1902. The top inflatable layer 3604 provides cushions frompressure exerted onto the stomach from other body organs that areadjacent to the stomach. The bottom inflatable layer 3606 providesconstriction pressure on the stomach as described above. A double-lumenport 3602 provides separate inflation fluid to each of the inflatablelayers. In an embodiment, the top inflatable layer 3604 and bottominflatable layer 3606 can include multiple inflatable or Tillablechambers. Each of the lumens in the double-lumen port 3602 can eachcontain multiple lumens to deliver different fluids to each of themultiple chambers within each inflatable layer.

FIG. 37 is a view of an inflatable gastric skirt with radio-frequency(RF) coils. In an embodiment, each of the inflatable chambers 2008 has aRF coil 3702 surrounding the exterior of the chamber 2008. The RF coils3702 are activated when a RF receiver 3704, either coupled to thegastric skirt 1902, or embedded within the gastric skirt 1902, receivesan activation signal from an energy device, such as an RF generator,controller or transmitter. In an embodiment, the energy device islocated outside of the patient's body and transmits wireless energysignals to the RF receiver 3704. The RF receiver 3704 can be used tostore energy or the energy signals. In another embodiment, the energydevice can be located inside the patient's body. In an embodiment, theRF coils 3702 provide RF energy, such as heat and ultrasonic energy, tothe exterior stomach wall, and create scarring in the shape of the RFcoils 3702 in the exterior stomach wall. The scarred tissue reduces thestomach volume.

In an embodiment, immediately after the tissue scarring process incompleted the chambers 2008 can be filled with a cooled fluid, such ascooled saline. The cooled fluid may assist in better healing of thescarred tissue. Furthermore, once the chambers 2008 are inflated, theyinflate into the space created by the scarred tissue, providinglocalized cushioning of the scarred regions. When the chambers 2008expand or fill into the scarred tissue region that has been indentedinto the exterior stomach wall, the gastric skirt 1902 is secured intoits intended site.

In an embodiment, the RF coils 3702 may be covered with a sleeve orpouch made from Teflon®, Dacron®, ePTFE, or any combination thereof. Thesleeve is glued or sutured to the gastric skirt 1902 and/or the chambers2008. In another embodiment, the sleeve is molded with the gastric skirt1902 and/the chambers 2008 to form a single molded structure.

FIG. 38 is a view of an inflatable gastric skirt with steam ablationholes. Each of the inflatable chambers 2008 are covered with a thinablation layer 3802, which contain an ablation device, and have topholes 3804 to allow thermal energy in the form of steam to pass throughand ablate the exterior stomach wall. Steam is delivered to the ablationlayers 3802 via a steam receiver 3806. In an embodiment, the steam canbe delivered through the tube 1904 prior to delivery of fluid to thechambers 2008. In another embodiment, thermal steam ablation can be usedin conjunction with laser ablation to provide scarring of the stomachtissue.

FIG. 39 is a lateral view of an inflatable gastric skirt with steamablation holes. The gastric skirt 1902 includes ablation layers 3802 ontop of each of the chambers 2008. The ablation layers 3802 include sideholes 3902. The top holes 3802 and the side holes 3902 allows steamablation to create an indentation within the exterior stomach wall sothat the stomach can accommodate the chambers 2008.

FIG. 40 is a view of an inflatable gastric skirt with an ultrasoundprobe. The gastric skirt 1902 includes ultrasound layers 4002 on top ofeach of the chambers 2008. The ultrasound layers include an ultrasoundreceiver 4004 which delivers ultrasound waves to the exterior stomachwall. The ultrasound energy, such as ultrasonic waves, createsindentations within the exterior stomach wall so that the stomach canaccommodate the chambers 2008. In an embodiment, the ultrasound receiver4004 can be embedded within the gastric skirt 1902 and activated by areceiver or controller located outside of the patient's body.

In another embodiment, laser energy, heat, microwave radiation,high-intensity light, or other tissue scarring mechanisms can be used todeliver energy to scar the exterior stomach wall. In each of theseembodiments, an implanted receiver and an external energy source, suchas a generator located outside of the body, can be used to activate thetissue ablation device.

In another embodiment, the energy source is implanted with the body, andcan be embedded within the gastric skirt 1902, embedded within theablation layers, or located adjacent to the gastric skirt 1902.

In an embodiment, the ablation device can be activated by a remote orexternal controller, such as for example, an external handheld computer,desktop computer, monitoring system, or an online web-based monitoringportal. The remote controller ablation energy to be delivered remotelyafter the gastric skirt implantation surgery has been completed. Theremote controller activates the transmission of energy from an externalenergy source to the transmitter, which in turn delivers energy to theablation layer. The ablation device then emits the energy toward theouter surface of the stomach in order to ablate stomach tissue. In anembodiment, the energy emission to the stomach tissue can last from 0.5seconds to 20 seconds, depending on a desired level of ablation orscarring.

In another embodiment, the ablation device is positioned on the exteriorsurface of the gastric skirt 1902. In this embodiment, the ablationdevice, such as an ultrasound probe, transmits ultrasound energy signalstowards the outer surface of the stomach through the gastric skirt 1902.

In another embodiment, the gastric skirt 1902 is comprised of aninterior elastomeric sheet and an exterior elastomeric sheet. Theablation device is sandwiched between the first elastomeric sheet andthe second elastomeric sheet. In yet another embodiment, the ablationdevice is integral to an elastomeric casing, and is contained within theelastomeric casing.

FIG. 41 is a view of an inflatable gastric skirt with alternatingablation layers and inflation chambers. In an embodiment, the thermalablation layers 4102 are positioned in an alternating fashion with thechambers 2008. The thermal ablation layers 4102 are positioned betweenthe chambers 2008, so that the inner surface of the gastric skirt 1902has a smooth and even surface. In another embodiment, the ablationlayers can be an ultrasound probe or RF coils positioned between thechambers 2008 in an alternating fashion as described above.

In another embodiment, different ablation layers can be activated toselectively scar different portions of the exterior stomach wall. Forexample, in the gastric skirt shown in FIG. 40, only two of the fourablation layers can be activated based on a desired area and amount ofscarring. Furthermore, different ablation layers can be activated atdifferent times so that a large portion of the stomach is not undergoingscarring at once, and the scarring procedure can be spread out overtime.

In yet another embodiment, the chambers can be semiporous, allowing forfluid to leak onto the exterior stomach wall. The inflation fluid can bea neurotoxin, such as botulinum toxin types A, B, C₁, D, E, F and G.When the neurotoxin is administered at the site where the inflatablechambers contact the stomach, the site administered takes a relaxedmuscle tone. The inflatable chambers would then fall into these regionswith the relaxed muscle tone, securing the gastric skirt 1902 in itsintended site.

In an alternative embodiment, the gastric skirt does not includeinflatable or tillable chambers. Instead, the gastric skirt includesonly an ablation or tissue scarring mechanism, such as, for example, RFcoils, thermal ablation layers, or ultrasound layers, to deliver energyto the exterior tissue, surface, wall or lining of the stomach. In thisembodiment, the gastric skirt can be applied around a portion of thestomach in order to ablate the stomach and reduce the internal volume ofthe stomach. The gastric skirt can provide a barrier between the scarredexterior stomach wall and other body organs. This allows the scarredtissue to heal faster and with a minimal risk of infections orcomplications, as opposed to normal scarring procedures where thescarred tissue is left exposed during healing.

In an embodiment, the antral skirt 3402 can include an ablation device,such as, for example, RF coils, thermal ablation layers, or ultrasoundlayers, in conjunction with tillable or inflatable chambers. The antralskirt 3402 can provide constriction as well as ablation or scarring tothe pyloric antrum 114.

FIG. 42 is a view of a physiological connection between stomachreceptors and a brain. After a VSG procedure, many of the cardia stretchreceptors 4202 and the stomach body stretch receptors 4204 are removed.However, the pyloric antrum 114 is not modified by the VSG procedure,and the antral stretch receptors 4204 in the pyloric antrum 114 remainintact. Upon being filled with food and stomach contents, the pyloricantrum 114 expands, and the stretch receptors 4206 in the pyloric antrum114 send neurological signals to the hypothalamus 4210 in the brain4208, indicating the stomach is full. Upon receipt of these signals, thehypothalamus 4210 sends a signal via the afferent vagal nerve 4212 tothe pyloric antrum 114 to pump out the food into the intestines.

The antral skirt 3402 provides a constant pressure around the pyloricantrum 114, so that when pyloric antrum 114 even slightly expands, theantral stretch receptors 4206 are constrained from further expansion.Upon being prevented from further expansion, the antral stretchreceptors 4206 send a signal to the brain 4208, and in turn, the pyloricantrum 114 is caused to pump out food contents. The combination of theantral skirt 3402 and the antral stretch receptors 4206 create an equaland opposite reaction, causing a continual gastric emptying by thepyloric antrum 114. Thus, the invention takes advantage of the antralstretch receptors 4206 that remain after a VSG procedure in order toprovide an indication of fullness to the brain 4208 and cause rapid andearly gastric emptying.

FIG. 43 is a view of a stomach prior to ligation. In an embodiment, thegastric skirt 1902 is designed to accommodate a stomach that hasundergone tucking and ligation procedures. Prior to placing the gastricskirt 1902 around the stomach 100, a linear portion of the greatercurvature 112 is tucked inwards into the stomach 100 and towards thelesser curvature 110. As shown above in FIG. 1B, the inner lining 120 isdepressed within the stomach 100 as a result of the tucking procedure,and the tucked-in portion 4302 occupies space within the body of thestomach 106. After the tucking procedure, a first untucked stomachportion 4304 and a second untucked stomach portion 4306. Thus, theinternal volume of the stomach 100 is substantially decreased.

In an embodiment, in order to assist the healthcare provider indetermining how far to tuck in the stomach, a bougie 4308 isendoscopically inserted through the esophagus 102 and into the stomachbody 106 (Step 4702). The bougie 4308 is inserted adjacent to or alongthe lesser curvature 110. Next, a portion of the stomach 100 is tuckedor pushed inwards towards the lesser curvature 110 until the bougie 4308is reached (Step 4704). The bougie 4308 prevents the tucked-in portion4302 from completely blocking off the stomach body 106, and allows for achannel to remain in the stomach body 106 after the stomach ligationprocedure is completed. In another embodiment, a guidewire dilator,balloon dilator, or any other mechanism can be used to assist thehealthcare professional in tucking in the stomach 100 without closingoff the stomach body 106.

After the stomach 100 has been tucked-in, a ligation procedure isperformed (Step 4706). The first untucked stomach portion 4304 and thesecond untucked stomach portion 4306 are ligated by inserting aligature, such as bioabsorbable surgical staples, sutures, stitches,thread, wired and/or clamps, using a ligation device. Thus procedurecloses off any space which was created by the tucked-in portion 4302between the first untucked stomach portion 4304 and the second untuckedstomach portion 4306. In another embodiment, the ligation procedure canbe performed using bioabsorbable staples or stitches. The ligationprocedure can be conducted either laparoscopically or during anopen-surgical procedure. After the ligation procedure is completed, thebougie 4308 is removed from the stomach 100 (Step 4708) using theendoscopic device. In an embodiment, the stomach 100 is then coveredwith the gastric skirt 1902 (Step 4710), and the gastric skirt 1902 isfilled or inflated to provide a desired level of constriction around thestomach (Step 4712).

FIG. 44 is a lateral view of a tucked-in stomach prior to ligation. Thegreater curvature 112 is tucked-in towards the lesser curvature 110,until the greater curvature 112 comes into contact with the bougie 4308.The tucked-in portion 4302 leaves the first untucked stomach portion4304, the second untucked stomach portion 4306, and a cavity 4402between the first untucked stomach portion 4304 and the second untuckedstomach portion 4306.

FIG. 45 is a view of a ligated stomach. After the ligation procedure iscompleted, the internal volume of the stomach 100 is reduced toapproximately one-third of its original volume. The ligation procedureis reversible, as the sutures 4310 can be removed. In an embodiment, thegastric skirt 1902 is positioned around the ligated stomach as shown inFIG. 19. In another embodiment, the stomach 100 undergoes a VSGprocedure instead of a ligation procedure prior to the gastric skirt1902 being placed around the stomach.

FIG. 46 is a lateral view of a gastric skirt positioned around a ligatedstomach. The volume of the stomach body 106 is approximately one-thirdof its original volume. The sutures 4310 are inserted through the firstuntucked portion of the stomach 4304, the cavity 4402, and the seconduntucked portion of the stomach 4306. The sutures 4310 prevent food andstomach contents from entering and accumulating in the first untuckedportion of the stomach 4304 and the second untucked portion of thestomach 4306. In an embodiment, the stomach 100 is covered with thegastric skirt 1902.

While the principles of the disclosure have been illustrated in relationto the exemplary embodiments shown herein, the principles of thedisclosure are not limited thereto and include any modification,variation or permutation thereof.

What is claimed is:
 1. A gastric restriction device for treatingexcessive weight or obesity in mammals, comprising: a skirt having aleft portion, a right portion, a top edge with a first indentationlocated at a center of the top edge, and a bottom edge with a secondindentation located at a center of the bottom edge, the skirt having anarrow surface located between the first indentation and the secondindentation and a broad surface formed from the left portion connectingto the right portion, the skirt being configured to envelop and fit aninternal stomach organ of a mammal; a first attachment device that isattached to or part of the right portion of the skirt; and a secondattachment device that is attached to or part of the left portion of theskirt and adapted to engage the first attachment device so that theskirt envelops and fits the internal stomach organ of the mammal.
 2. Thegastric restriction device of claim 1, wherein the skirt has a surfacethat is at least 14 square centimeters.
 3. The gastric restrictiondevice of claim 2, wherein the narrow surface is operable to envelop alesser curvature of the internal stomach organ and the broad surface isoperable to envelop a greater curvature of the internal stomach organ.4. The gastric restriction device of claim 3, wherein the skirt or thefirst and second attachment devices completely cover an entire areabetween a left edge of the left portion and a right edge of the rightportion when the second attachment device is engaged with the firstattachment.
 5. The gastric restriction device of claim 4, wherein theskirt is adapted to be positioned around and in direct contact with theinternal stomach organ of the mammal to tightly engage the internalstomach organ when the left edge is in proximity to the right edge. 6.The gastric restriction device of claim 1, wherein the top edge is aconcave edge and the bottom edge is a concave edge.
 7. The gastricrestriction device of claim 1, wherein the skirt is made of animplantable silicon material or an ePTFE material.
 8. A gastricconstriction device for treating excessive weight or obesity in mammals,comprising: a skirt having a left portion, a right portion, a topportion, and a bottom portion, the top portion having a top edge with afirst indentation, the bottom portion having a bottom edge with a secondindentation, the skirt having a narrow surface located between the firstindentation and the second indentation and a broad surface formed fromthe left portion connecting to the right portion, the narrow surface andthe broad surface operable to cover different portions of a stomach; afirst attachment device that is attached to or part of the right portionof the skirt; and a second attachment device that is attached to or partof the left portion of the skirt and adapted to engage the firstattachment device and maintain a left edge of the left portion inproximity to a right edge of the right portion.
 9. The gastricconstriction device of claim 8, wherein the skirt or the first andsecond attachment devices completely covers an entire area between theleft edge and the right edge when the left edge is in proximity to theright edge and the first and second attachment devices are adapted to bepositioned around a greater curvature of the stomach, thereby preventingexpansion of the stomach when the first attachment device is fastened tothe second attachment device.
 10. The gastric constriction device ofclaim 8, wherein the skirt is adapted to be positioned around and indirect contact with the stomach of the mammal to tightly engage thestomach when the left edge is in proximity to the right edge.
 11. Thegastric constriction device of claim 8, wherein the skirt is made ofsilicone.
 12. The gastric constriction device of claim 8, wherein theskirt is made of a biodegradable and absorbable polymer.
 13. The gastricconstriction device of claim 8, wherein the skirt has a parallelogramshape.
 14. The gastric constriction device of claim 8, wherein the firstindentation has a concave shape and the second indentation has a concaveshape.
 15. A gastric restriction device for treating excessive weight orobesity in mammals, comprising: a skirt having a left portion, a rightportion, a top portion having a top edge with a first indentationlocated at the top edge, and a bottom portion having a bottom edge witha second indentation located at the bottom edge, the skirt having anarrow surface located between the first indentation and the secondindentation and a broad surface formed from the left portion connectingto the right portion, the narrow surface operable to envelop a lessercurvature of an internal stomach organ of a mammal and the broad surfaceoperable to envelop a greater curvature of the internal stomach organ; afirst attachment device that is attached to or part of the right portionof the skirt; and a second attachment device that is attached to or partof the left portion of the skirt and adapted to engage the firstattachment device and maintain the left portion in proximity to theright portion.
 16. The gastric restriction device for claim 15, whereinthe skirt or the first and second attachment devices completely coversan entire area between the left portion and the right portion when theleft portion is in proximity to the right portion and the first andsecond attachment devices are adapted to be positioned around thegreater curvature of the internal stomach organ, thereby preventingexpansion of the internal stomach organ when the first attachment deviceis fastened to or inserted into the second attachment device.
 17. Thegastric restriction device of claim 15, wherein the skirt is adapted tobe positioned around and in direct contact with the internal stomachorgan of the mammal to tightly engage the internal stomach organ whenthe left portion is in proximity to the right portion.
 18. The gastricrestriction device of claim 15, wherein the top edge is a concave edgeand the bottom edge is a concave edge.
 19. The gastric restrictiondevice of claim 15, wherein the skirt is made of an implantable siliconmaterial or an ePTFE material.
 20. The gastric restriction device ofclaim 15, wherein the first attachment device is a receiver and thesecond attachment device is a connector, wherein the connector isadapted to be inserted into the receiver to maintain the left portion inproximity to the right portion.